The study of atmospheric chemistry-climate interactions is one of today's great computational challenges. Advances in the architecture of Graphics Processing Units (GPUs) in both raw computational power and memory bandwidth sparked the interest for General-Purpose computing on graphics accelerators in scientific applications. However, the introduction of GPUs in the High Performance Computing (HPC) landscape increased the complexity of software development, due to the inherent heterogeneity requirements of programming models and design approaches, creating a gap in uptake and attainable performance in the presently available scientific community codes. This paper provides an overview of the challenges encountered when using GPU accelerators...
<p>Precise and rapid air quality simulation and forecasting are limited by the computation performan...
Studies of atmospheric chemistry are of high scientific interest, involve computations that are comp...
The article of record as published may be found at http://dx.doi.org/10.1177/1094342017694427We pres...
Atmospheric models are a representation of dynamical, physical, chemical, dynamical, and radiative ...
The global climate model ECHAM/MESSy Atmospheric Chemistry (EMAC) is used to study climate change an...
We present a series of optimizations to alleviate stack memory overflow issues and improve overall p...
Global chemistry‐climate models are computationally burdened as the chemical mechanisms become more ...
Atmospheric chemistry models are a central tool to study and forecast the impact of air pollution on...
There is a growing need for ever more accurate climate and weather simulations to be delivered in sh...
Environmental models are simplified representations of an object or a process [1]. These models pro...
There is a growing need for ever more accurate climate and weather simulations to be delivered in sh...
Abstract. Chemical kinetics modeling accounts for a significant por-tion of the computational time o...
The chemical kinetics ODEs arising from operator-split reactive-flow simulations were solved on GPUs...
This work is distributed under the Creative Commons Attribution 3.0 License.-- et al.We have optimis...
Graphics processing units (GPUs) are attractive for high-performance computing due to their massivel...
<p>Precise and rapid air quality simulation and forecasting are limited by the computation performan...
Studies of atmospheric chemistry are of high scientific interest, involve computations that are comp...
The article of record as published may be found at http://dx.doi.org/10.1177/1094342017694427We pres...
Atmospheric models are a representation of dynamical, physical, chemical, dynamical, and radiative ...
The global climate model ECHAM/MESSy Atmospheric Chemistry (EMAC) is used to study climate change an...
We present a series of optimizations to alleviate stack memory overflow issues and improve overall p...
Global chemistry‐climate models are computationally burdened as the chemical mechanisms become more ...
Atmospheric chemistry models are a central tool to study and forecast the impact of air pollution on...
There is a growing need for ever more accurate climate and weather simulations to be delivered in sh...
Environmental models are simplified representations of an object or a process [1]. These models pro...
There is a growing need for ever more accurate climate and weather simulations to be delivered in sh...
Abstract. Chemical kinetics modeling accounts for a significant por-tion of the computational time o...
The chemical kinetics ODEs arising from operator-split reactive-flow simulations were solved on GPUs...
This work is distributed under the Creative Commons Attribution 3.0 License.-- et al.We have optimis...
Graphics processing units (GPUs) are attractive for high-performance computing due to their massivel...
<p>Precise and rapid air quality simulation and forecasting are limited by the computation performan...
Studies of atmospheric chemistry are of high scientific interest, involve computations that are comp...
The article of record as published may be found at http://dx.doi.org/10.1177/1094342017694427We pres...